/** * Constructs a new timer, initially not started. Use start() to start the timer. */ public Timer() { this.reset(); } /**
/** * Constructs a new timer, initially not started. Use start() to start the * timer. */ public Timer() { this.reset(); }
/** * Constructs a new timer, initially not started. Use start() to start the * timer. */ public Timer() { this.reset(); }
/** * Constructs a new timer, initially not started. Use start() to start the timer. */ public Timer() { this.reset(); } /**
public static void zdemo8(int size) { System.out.println("\n\n"); System.out.println("now initializing... "); final cern.jet.math.tfloat.FloatFunctions F = cern.jet.math.tfloat.FloatFunctions.functions; FloatMatrix1D A = cern.colt.matrix.tfloat.FloatFactory1D.dense.random(size); System.out.print("now quick sorting... "); cern.colt.Timer timer = new cern.colt.Timer().start(); quickSort.sort(A); timer.stop().display(); System.out.print("now merge sorting... "); timer.reset().start(); mergeSort.sort(A); timer.stop().display(); }
public static void zdemo8(int size) { System.out.println("\n\n"); System.out.println("now initializing... "); final cern.jet.math.tfloat.FloatFunctions F = cern.jet.math.tfloat.FloatFunctions.functions; FloatMatrix1D A = cern.colt.matrix.tfloat.FloatFactory1D.dense.random(size); System.out.print("now quick sorting... "); cern.colt.Timer timer = new cern.colt.Timer().start(); quickSort.sort(A); timer.stop().display(); System.out.print("now merge sorting... "); timer.reset().start(); mergeSort.sort(A); timer.stop().display(); }
public static void zdemo8(int size) { System.out.println("\n\n"); System.out.println("now initializing... "); final cern.jet.math.tdouble.DoubleFunctions F = cern.jet.math.tdouble.DoubleFunctions.functions; DoubleMatrix1D A = cern.colt.matrix.tdouble.DoubleFactory1D.dense.random(size); System.out.print("now quick sorting... "); cern.colt.Timer timer = new cern.colt.Timer().start(); quickSort.sort(A); timer.stop().display(); System.out.print("now merge sorting... "); timer.reset().start(); mergeSort.sort(A); timer.stop().display(); }
public static void zdemo8(int size) { System.out.println("\n\n"); System.out.println("now initializing... "); final cern.jet.math.tdouble.DoubleFunctions F = cern.jet.math.tdouble.DoubleFunctions.functions; DoubleMatrix1D A = cern.colt.matrix.tdouble.DoubleFactory1D.dense.random(size); System.out.print("now quick sorting... "); cern.colt.Timer timer = new cern.colt.Timer().start(); quickSort.sort(A); timer.stop().display(); System.out.print("now merge sorting... "); timer.reset().start(); mergeSort.sort(A); timer.stop().display(); }
DoubleMatrix2D matrix = cern.colt.matrix.tdouble.DoubleFactory2D.dense.make(size, size, value); timer.reset().start(); buf = new StringBuffer(); for (int i = size; --i >= 0;) { timer.stop().display(); timer.reset().start(); cern.colt.matrix.Former format = new cern.colt.matrix.FormerFactory().create("%G"); buf = new StringBuffer(); timer.stop().display(); timer.reset().start(); s = new DoubleFormatter(null).toString(matrix); System.out.println(s); timer.stop().display(); timer.reset().start(); s = new DoubleFormatter("%G").toString(matrix); System.out.println(s);
FloatMatrix2D matrix = cern.colt.matrix.tfloat.FloatFactory2D.dense.make(size, size, value); timer.reset().start(); buf = new StringBuffer(); for (int i = size; --i >= 0;) { timer.stop().display(); timer.reset().start(); cern.colt.matrix.Former format = new cern.colt.matrix.FormerFactory().create("%G"); buf = new StringBuffer(); timer.stop().display(); timer.reset().start(); s = new FloatFormatter(null).toString(matrix); System.out.println(s); timer.stop().display(); timer.reset().start(); s = new FloatFormatter("%G").toString(matrix); System.out.println(s);
t.reset(); // set timer to zero t.start(); j = 0;
t.reset(); //set timer to zero t.start(); j=0;
t.reset(); //set timer to zero t.start(); j=0;
t.reset(); // set timer to zero t.start(); j = 0;